Apparatus and Method for Decoding Burst in an Ofdma Mobile Communication System

1. A decoding apparatus in an Orthogonal Frequency Division Multiple Access (OFDMA) mobile communication system, the apparatus comprising: a first combiner for performing first combining on an input burst a first number of times; a deinterleaver for deinterleaving an output of the first combiner and outputting a burst having a repeated structure; a second combiner for performing second combining on the burst having the repeated structure a second number of times; and a decoder for decoding the combined burst.

2. The decoding apparatus of claim 1 , wherein the burst is a frame control header (FCH).

3. The decoding apparatus of claim 1 , further comprising a signal detector for storing a second internal memory state value of the decoder for an instance where a first decoded bit is extracted from the decoded data, storing a first internal memory state value of the decoder for an instance where a last decoded bit is extracted from the decoded data, comparing the first and the second stored internal memory state values of the decoder, and setting a burst quality indicator (BQI) according to the comparison result.

4. The decoding apparatus of claim 3 , wherein the burst is a frame control header (FCH).

5. The decoding apparatus of claim 3 , wherein the signal detector sets the BQI to a value indicating that the decoding is successful if the first and second stored internal memory state values of the decoder are equal to each other.

6. The decoding apparatus of claim 5 , wherein the signal detector delivers the BQI being set to the value indicating that the decoding is successful to an upper layer.

7. The decoding apparatus of claim 3 , wherein the signal detector determines whether a pattern of a specific bit is fixed if the stored internal memory state values of the decoder are equal to each other; and sets the BQI to a value indicating that the decoding is successful if the pattern of a specific bit is fixed.

8. The decoding apparatus of claim 7 , wherein the signal detector sets the BQI to a value indicating that the decoding is failed if the pattern of a specific bit is not fixed.

9. The decoding apparatus of claim 3 , wherein the signal detector sets the BQI to a value indicating that the decoding is failed if the first and second stored internal memory state values of the decoder are not equal to each other.

10. A decoding method in an Orthogonal Frequency Division Multiple Access (OFDMA) mobile communication system, the method comprising the steps of: performing first combining on an input burst a first number of times; deinterleaving the first-combined burst and outputting a burst having a repeated structure; performing second combining on the burst having the repeated structure a second number of times; and decoding the second-combined burst.

11. The decoding method of claim 10 , wherein the burst is a frame control header (FCH).

12. The decoding method of claim 10 , further comprising the steps of: storing a second internal memory state value of a decoder for an instance where a first decoded bit is extracted from the decoded data; storing a first internal memory state value of the decoder for an instance where a last decoded bit is extracted from the decoded data; comparing the first and second stored internal memory state values of the decoder; and setting a burst quality indicator (BQI) according to the comparison result.

13. The decoding method of claim 12 , wherein the burst is a frame control header (FCH).

14. The decoding method of claim 12 , further comprising the step of setting the BQI to a value indicating that the decoding is successful if the first and second stored internal memory state values of the decoder are equal to each other.

15. The decoding method of claim 14 , further comprising the step of delivering the BQI being set to the value indicating that the decoding is successful to an upper layer.

16. The decoding method of claim 12 , further comprising the step of setting the BQI to a value indicating that the decoding is failed if the first and second stored internal memory state values of the decoder are not equal to each other.

17. The decoding method of claim 16 , further comprising the step of setting the BQI to a value indicating that the decoding is failed if the pattern of a specific bit is not fixed.

18. The decoding method of claim 12 , further comprising the steps of: determining whether a pattern of a specific bit is fixed if the first and second stored internal memory state values of the decoder are equal to each other; and setting the BQI to a value indicating that the decoding is successful if the pattern of a specific bit is fixed.

19. A computer-readable medium having stored thereon instructions for executing a decoding method in an Orthogonal Frequency Division Multiple Access (OFDMA) mobile communication system, the instructions comprising: a first set of instructions for performing first combining on an input burst a first number of times; a second set of instructions for deinterleaving the first-combined burst and outputting a burst having a repeated structure; a third set of instructions for performing second combining on the burst having the repeated structure a second number of times; and a fourth set of instructions for decoding the second-combined burst.

20. A decoding apparatus in an Orthogonal Frequency Division Multiple Access (OFDMA) mobile communication system, the apparatus comprising: a decoder for decoding input data; and a signal detector for storing a second internal memory state value of the decoder for an instance where a first decoded bit is extracted from the input data, storing a first internal memory state value of the decoder for an instance where a last decoded bit is extracted from the input data, comparing the first and the second stored internal memory state values of the decoder, and determining whether the decoding is successful or failed according to the comparison result.

21. The decoding apparatus of the claim 20 , wherein the input data is encoded by way of tail-bited encoding.

22. The decoding apparatus of the claim 21 , wherein the input data is a frame control header (FCH).

23. The decoding apparatus of the claim 22 , wherein the decoder ceases a decoding of a DL_MAP when the decoding of the FCH is failed.

24. A decoding method in an Orthogonal Frequency Division Multiple Access (OFDMA) mobile communication system, the apparatus comprising: decoding input data; and storing a second internal memory state value of the decoder for an instance where a first decoded bit is extracted from the input data; storing a first internal memory state value of the decoder for an instance where a last decoded bit is extracted from the input data; comparing the first and the second stored internal memory state values of the decoder; and determining whether the decoding is successful or failed according to the comparison result.

25. The decoding method of the claim 24 , wherein the input data is encoded by way of tail-bited encoding.

26. The decoding method of the claim 25 , wherein the input data is a frame control header (FCH).

27. The decoding method of the claim 26 , further comprising the steps of ceasing a decoding a decoding of a DL_MAP when the decoding of FCH is failed.